ACTIVE CONTROL OF FLEXIBLE STRUCTURES USING A MINIMUM NUMBER OF COMPONENTS

Principal component analysis is used to simplify the extraction of the natural frequencies and their corresponding orthonormal mode shapes directly from experimental data of unknown #exible structures. A control law is designed using a state-space modal model and is tested on di!erent structures. Th

The problem of controlling the position at the tip of a #exible cantilever beam to follow a command signal is considered, by using a pair of piezoelectric actuators at the clamped end. The beam is lightly damped and so the natural transient response is rather long, and also since the sensor and actu

An adaptive modal positive position feedback (AMPPF) method is presented for controlling the vibration and shape of flexible structures. The proposed strategy combines the attractive attributes of the independent modal space control (IMSC) of Meirovitch and the positive position feedback (PPF) of Go

## Abstract The paper deals with gray box identification of flexible structures and active vibration suppression from a robust control perspective. First, the linearized mathematical model of an __N__‐storey flexible structure is presented. Next, the generalized mathematical model is particularized

This paper presents a theoretical study of a predictive active control system used to improve the response of multi-degree-of-freedom (MDOF) structures to earthquakes. As an example a building frame equipped with electrorheological (ER) dampers is considered. The aim of the design is to "nd a combin